Download i. year course contents

Course Title: - Course Code:
Name of the Programme:
CHEMİSTRY
GENERAL CHEMISTRY I, CHEM 101
Semester
Teaching Methods
Lecture Recite Lab.
1
56
Language
Turkish
28
-
Home
works
- 26
Credits
Other
Total Credit
80
200
4
ECTS
Credit
6
Compulsory Compulsory
/ Elective
Prerequisites None
Matter-its properties and measurement. Atoms and the atomic theory. Chemical
compounds. Chemical reactions. Introduction to reactions in aqueous solutions.
Gases. Thermochemistry. Electrons in atoms. The periodic table and some atoic
properties. Chemical bonding I: Basic concepts. Chemical bonding II: Bonding
theories. Liquids, solids and intermolecular forces.
To give the basic general chemistry concepts to chemistry students to form base
Course
at the begining of chemistry programme.
Objectives
Chemists work in the fields of scientific and engineering areas. Thus, they get an
Learning
ability to discuss possible common problems in this field. They will gain some
Outcomes
skills, to produce new and modern materials, to predict their properties and to
and
Competences develop new methods and applications.
Genel Kimya: İlkeler ve Modern Uygulamalar 1, R.H. Petrucci, W.S. Harwood,
Textbook
F.G. Herring, Çeviri Editörleri: T. Uyar, S. Aksoy, Sekizinci Baskıdan Çeviri,
and /or
Palme Yayıncılık, 2000
References
Course
Contents
Temel Kimya: Moleküller, Maddeler ve Değişimler, Atkins ve Jones, Çeviri
Editörleri: E. Kılıç, F. Köseoğlu, H. Yılmaz, İkinci Baskıdan Çeviri, Bilim
Yayıncılık
Assessment
Criteria
Chemistry, R. Chang, McGraw-Hill, Inc. Sixth Edition
If any, mark
Midterm Exams
Percent
as (X)
X
(%)
40
X
60
Quizzes
Homeworks
Projects
Term Paper
Laboratory Work
Other
Final Exam
Prapared by
Prof. Dr. Birgül Erk, Prof Dr. Serpil Aksoy
Week
Subjects
1
MATTER-ITS PROPERTIES AND MEASUREMENT: The scope of
chemistry, the scientific method, properties and classification of matter,
measurement of matter, uncertainties in scientific measurements, significant
figures.
ATOMS AND THE ATOMIC THEORY: Early chemical discoveries and the
2
3
4
5
6
7
8
9
10
11
12
13
14
atomic theory, electrons and other discoveries in atomic physics, the nuclear
atom, chemical elements, atomic masses, introduction to periodic table, the
concept of the mole and the Avogadro constant, using the mole concept in
calculations.
CHEMICAL COMPOUNDS: Types of chemical compounds and their formulas,
the mole concept and chemical compounds, composition of chemical
compounds, oxidation states, names and formulas of inorganic and organic
compounds.
CHEMICAL REACTIONS: Chemical reactions and chemical
equations,chemical equations and stoichoimetry, chemical reactions in solution,
determining the limiting reactant, other practical matters in reaction
stoichoimetry.
INTRODUCTION TO REACTIONS IN AQUEOUS SOLUTIONS: The nature
of aqueous solutions, precipitation reactions, acid-base reactions, oxidation
reduction reactions and, their balancing, oxidizing and reducing agents,
stoichoimetry of reactions in aqueous solutions: Titrations.
GASES: Properties of gases: Gas pressure, the simple gas laws, the ideal and
general gas equations and their applications, gases in chemical reactions,
mixtures of gases, kinetic-molecular theory of gases and gas properties related to
this theories, non-ideal gases.
THERMOCHEMISTRY: Some terminology in thermochemistry, heat, heats of
reaction and calorimetry, work, the first law of thermodynamics, heats of
reaction and determination: Hess’s Law, standard enthalpies of formation.
ELECTRONS IN ATOMS: Electromagnetic radiation, atomic spectra, quantum
theory, the Bohr atom, two ideas leading to a new quantum mechanics, wave
mechanics, quantum numbers and atomic orbitals, interpreting and representing
the orbitals of hydrogen atom, electron spin, multielectron atoms, electron
configurations and periodic table.
MIDTERM EXAM and the solutions of the exam questions
THE PERIODIC TABLE AND SOME ATOMIC PROPERTIES: Classifying
the elements: The periodic law and periodic table, metals and nonmetals and
their ions, the sizes of atoms and ions, ionization energy, electron affinity,
magnetic properties, periodic properties of the elements.
CHEMICAL BONDING I: BASIC CONCEPTS: Lewis theory, covalent
bonding, polar covalent bonds, writing Lewis structures, resonance. bağlanma,
polar kovalent bağlar, Lewis yapılarının yazılması, rezonans,
CHEMICAL BONDING I: BASIC CONCEPTS: exceptions to the Octet rule,
the shapes of molecules, bond order and bond lengths, bond energies.
CHEMICAL BONDING II: THE BONDING THEORIES: Introduction to the
valence-bond theory, hybridization of atomic orbitals, multiple covalent bonds,
molecular orbital theory, delocalized electrons, bonding in metals.
LIQUIDS, SOLIDS AND INTERMOLECULAR FORCES: Intermolecular
forces and some properties of liquids, vaporization of liquids: Vapor pressure,
some properties of solids, phase diagrams, van der Waals forces, hydrogen
bonding, crystal structures, energy changes in the formation of ionic crystals.
Course Title-Course Code:
Name of the Programme:
PHYSICS-I PHYS.101
Semester
Teaching Methods
PHYSICS
Credits
Lecture
Recite
Lab.
Homework
Other
Total
Credit
ECTS Credit
I
56
28
-
50
41
175
4
5
Language
Turkish
Compulsory /
Elective
Prerequisites
compulsive
Course
Contents
Physics and measuring, vectors, motion in one dimension, motion in two dimension, laws of motion, circular
motion, work and energy, potential energy and conservation of potential energy, linear momentum and
collision, rotation of a rigid body, universal gravitational law, fluid mechanics.
Preparing some fundamental knowledge of physics during te student’s education period.
Course
Objectives
Learning
Outcomes and
Competences
Textbook and
/or References
Assessment
Criteria
-
Pre-abilities which is completed by solving problems in theorical and applicational physics 1 lecture.
‘PHYSICS, For Scientists and Engineers with Modern Physics, R.Serway,Saunders College Publishing,1990’
Midterm Exams
If any,mark
Percent
as (X)
X
(%)
40
X
60
Quizzes
Homeworks
Projects
Term Paper
Laboratory Work
Other
Final Exam
Prepared by
Prof. Dr. Şenay YURDAKUL
Week
Subject
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Physics and measuring
vectors
motion in one dimension
motion in two dimension
laws of motion
circular motion
work and energy
potential energy and conservation of potential energy
lineer momentum and collision
rotation of a rigid body
Rolling and angular momentum
Static Equilibrium
Vibrational motion
Gravitional Law
Course Title-Course Code:
Name of the Programme:
CALCULUS MAT-109
Semester
Teaching Methods
CHEMISTRY
Credits
Lecture
Recite
Lab.
Other
Total
Credit
ECTS Credit
1
56
28
-
91
175
4
5
Language
Turkish
Compulsory /
Elective
Prerequisites
Compulsory
Course Contents
Numbers. Inequality. Functions. Limit and continuity. Derivative. Transcendental functions. Aplications of
derivatives.
To teach fundamental concepts of mathematics.
Course
Objectives
Learning
Outcomes and
Competences
Textbook and /or
References
Assessment
Criteria
-
R. A. Adams; Calculus 2005 Addison Wesley.
Midterm Exams
If any,mark
Percent
as (X)
x
(%)
40
x
60
Quizzes
Homeworks
Projects
Term Paper
Laboratory Work
Other
Final Exam
Prepared by
Prof.Dr. İbrahim Ethem ANAR
Week
Subject
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Numbers
Inequality
Functions
Functions
Limit
Limit
Continuity
Derivatives
Derivatives
Transcendental functions
Transcendental functions
Applications of derivatives
Applications of derivatives
Course Title-Course Code:
Name of the Programme:
CHEMISTRY
GENERAL CHEMISTRY II, CHEM 102
Semester
Teaching Methods
Lecture Recite Lab.
28
-
-
Credits
Home Other Total Credit
works
100
184
4
ECTS
Credit
6
2
56
Language
Turkish
Compulsory /
Elective
Prerequisites
Compulsory
Course
Contents
Course
Objectives
Solutions and their physical properties. Chemical kinetics. Principles of
chemical equilibrium. Acids-bases and solubility equilibria. Spontaneous
change: Entropy and free energy. Electrochemistry. Nuclear chemistry. Organic
chemistry.
To give the basic general chemistry concepts to chemistry students to form base
at the begining of chemistry programme.
Learning
Outcomes
and
Competences
Chemists work in the fields of scientific and engineering areas. Thus, they get an
ability to discuss possible common problems in this field. They will gain some
skills, to produce new and modern materials, to predict their properties and to
develop new methods and applications.
None
Textbook and ●Genel Kimya: İlkeler ve Modern Uygulamalar 1, R.H. Petrucci, W.S.
Harwood, F.G. Herring, Çeviri Editörleri: T. Uyar, S. Aksoy, Sekizinci Baskıdan
/or
Çeviri, Palme Yayıncılık, 2000
References
●Temel Kimya: Moleküller, Maddeler ve Değişimler, Atkins ve Jones, Çeviri
Editörleri: E. Kılıç, F. Köseoğlu, H. Yılmaz, İkinci Baskıdan Çeviri, Bilim
Yayıncılık
Assessment
Criteria
●Chemistry, R. Chang, McGraw-Hill, Inc. Sixth Edition
If any,mark
Midterm Exams
Percent
as (X)
x
(%)
40
x
60
Quizzes
Homeworks
Projects
Term Paper
Laboratory Work
Other
Final Exam
Prepared by
Prof. Dr. Oya Şanlı, Prof Dr. A. Rehber Türker,
Week
Prof. Dr. Erdoğan Hasdemir, Prof. Dr. H. İbrahim Ünal
Subjects
1
2
3
4
5
6
7
8
9
10
11
12
13
14
SOLUTIONS AND THEIR PHYSICAL PROPERTIES: Types of solutions,
solution concentration, intermolecular forces and the solution process, solution
formation and equilibrium, solubilities of gases, vapor pressures of solutions.
SOLUTIONS AND THEIR PHYSICAL PROPERTIES: Osmotic pressure,
freezing-point depression and boiling point elevation of nonelectrolyte
solutions,
solutions of electrolytes.
CHEMICAL KINETICS: The rate of a chemical reaction, measuring reaction
rates, effect of concentration on the reaction rates, zero, first and second-order
reactions.
CHEMICAL KINETICS: Theoretical models for chemical kinetics, the effect of
temperature on reaction rates, reaction mechanisms, catalysis..
PRINCIPLAS OF CHEMICAL EQUILIBRIUM: Dynamic equilibrium, the
equilibrium constant expression, relationships involving equilibrium constants,
the reaction quotient, Le Chatelier’s principal, equilibrium calculations.
ACIDS AND BASES: The Arrhenius theory, Bronsted-Lowry theory of acids
and bases, the self ionization of water and the pH scale, strong acids and bases,
weak acids and bases, polyprotic acids, molecular structure and acid-base
behavior, Lewis acids and bases.
ACID-BASE AND SOLUBILITY EQUILIBRIA: The common ion effect in
acid-base equilibria, buffer solutions, acid-base indicators, neutralization
reactions and titration curves.
ACID-BASE AND SOLUBILITY EQUILIBRIA: Solutions of salts of
polyprotic acids, acid-base equilibrium calculations, the solubility product
constant, the common ion effect in the solubility equilibria, criteria for
precipitation and its completeness, fractional precipitation, solubility and pH...
MIDTERM EXAM and the solutions of the exam questions
SPONTANEOUS CHANGE-ENTROPY AND FREE ENERGY: Spontaneity,
the concept of entropy, evaluating entropy and entropy changes, the second law
of thermodynamics, standard free energy change, free energy change and
equilibrium as functions of temperature.
ELECTROCHEMISTRY: Electrode potentials and their measurement, standrd
electrode potentials, cell potential, free energy change and equilibrium constant.
ELECTROCHEMISTRY: Cell potential as a function of concentrations;
galvanic cells; corrosion; electrolysis; industrial electrolysis processes:.
NUCLEAR CHEMISTRY: Radioactivity, natural occuring radioactive isotopes,
nuclear reactions and artificially induced radioactivity, rate of radioactive decay,
energetics of nuclear reactions, nuclear stability, nuclear fission, nuclear fusion,
effect of radiation on matter, applications of radioisotopes.
ORGANIC CHEMISTRY: Organic compounds and structures, alkanes, alkenes
and alkynes, aromatic hydrocarbones, alcoholes, phenols and ethers, aldehydes
and ketons, corboxylic acids and their derivatives, amines, synthesis of organic
compounds, polymerization reactions.
Course Title-Course Code: PHYSICS-II - PHYS.102
Semester
II
Language
Compulsory /
Elective
Prerequisites
Course
Contents
Course
Objectives
Learning
Outcomes and
Competences
Textbook and
/or References
Assessment
Criteria
Prepared by
Week
1
2
3
4
56
7
8
9
10
11
12
13
Teaching Methods
Lecture
Recite
56
28
Turkish
compulsive
Name of the Programme: PHYSICS
Lab.
Homework
Other
Total
Credits
Credit
-
40
36
150
4
ECTS
Credit
6
Electric Fields, Gauss Law, Electric potential, Capacitance and dielectrics, Current and
Resistance, Linear current circuits, magnetic fields, magnetic field sources, Faraday Law,
Inductance, Alternative current circuits, electromagnetic waves.
Preparing some fundemantal knowledge of physics (electric and magnetism) during te student’s
education period.
Pre-abilities which is completed by solving problems in theorical and applicational lecture of
physics II.
‘PHYSICS, For Scientists and Engineers with Modern Physics, R.Serway,Saunders College
Publishing,1990’
If any,mark
Percent
Midterm Exams
Quizzes
Homeworks
Projects
Term Paper
Laboratory Work
Other
Final Exam
Prof. Dr. Şenay YURDAKUL
Subject
Electric Fields
Gauss Law
Electric Potential
Capacitance and dielectric
Current and resistance
Lineer current circuits
magnetic fields
sources of magnetic fields
Faraday Law
rotation of a rigid body
Inductance
Alternative current circuits
Electromagnetic fields.
as (X)
x
(%)
40
x
60
Course Title-Course Code:
Name of the Programme:
CALCULUS MAT-110
Semester
Teaching Methods
CHEMISTRY
Credits
Lecture
Recite
Lab.
Other
Total
Credit
2
56
28
-
91
175
4
Language
Turkish
Compulsory /
Elective
Prerequisites
Compulsory
Course Contents
Integration. Area calculations. Definite integral. Techniques of integration. Applications of
integration. Sequences and series. Functions of several variables. Multiple integration.
To teach fundamental concepts of mathematics.
Course
Objectives
Learning
Outcomes and
Competences
Textbook and /or
References
Assessment
Criteria
ECTS
Credit
5
-
R. A. Adams; Calculus 2005 Addison Wesley.
Midterm Exams
If any,mark
Percent
as (X)
x
(%)
40
x
60
Quizzes
Homeworks
Projects
Term Paper
Laboratory Work
Other
Final Exam
Prepared by
Prof.Dr. İbrahim Ethem ANAR
Week
Subject
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Integration.
Integration.
Area calculations.
Definite integral.
Techniques of integration.
Techniques of integration.
Applications of integration.
Applications of integration.
Sequences and series.
Sequences and series.
Functions of several variables.
Functions of several variables.
Multiple integration.
Multiple integration.
Course Title-Course Code:
Name of the Programme :
GENERAL CHEMISTRY LABORATORY, CHEM 152
Semester
Teaching Methods
Chemistry
Credits
Second
Semester
Language
Compulsory /
Elective
Prerequisites
Course
Contents
Course
Objectives
Learning
Outcomes
and
Competences
Textbook and
/or
References
Lecture
Recite
-
-
Lab.
28
Ödev
10
Other
Total
Credit
ECTS Credit
20
58
1
2
Turkish
Compulsory
None
Physical properties of matter, separation of mixtures, diffusion of gases, identification of
matter, crystallization and fractional distillation,, Stochiometry, determination of molecular
weight from freezing point depression, determination of the equivalent weight of magnesium,
Types of chemical reactions, acid-base titration, effect of temperature on reaction rate,
determination of ideal gas constant.
To teach the basic chemistry concepts to the chemistry students and gain some skills with
methods for the analysis of samples.
Chemistry students who will be work in research institution and industry, learn basic
chemistry concepts, errors in chemical analysis and elimination methods of them, theory of
gravimetric and titrimetric analysis and equilibrium systems, and thus, they get an ability to
discuss possible common problems in this field.
1.General Chemisrty , R.H.Petrucchi , W.S.Harwood, F.G.Herring ( Translation to Turkish
language): T.Uyar, S.Aksoy, Palme Yayıncılık, Sıhhıye/Ankara, 2002
2.General Chemistry Experiments, Gazi Ünv. Kimya Bölümü, Ankara, 2003
If any,mark
Percent
Midterm Exams
as (X)
X
(%)
25
Quizzes
X
25
Final Exam
X
50
Assessment
Criteria
Prepared by
Prof. Dr. Recai İnam
Week
Subject
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Physical properties of matter,
Separation of mixtures,
Diffusion of gases,
Identification of matter,
Crystallization and fractional distillation,
Mid-term exam.
Stochiometry,
Determination of molecular weight from freezing point depression,
Determination of the equivalent weight of magnesium,
Types of chemical reactions,
Acid-base titration,
Effect of temperature on reaction rate,
Determination of ideal gas constant
Make-up
Course and code:
Physics Laboratory-I
Programınn Adı: PHYSICS
PHYS.154
Credits
Methods of Education and Teaching
Semester
Theory
Appl.
Lab. Homework
Other
Total
Credit
ECTS Credit
I.
20
-
40
-
76.5
1
2
Course
Language
Turkish
16.5
Compulsory /
Elective
Prerequisites
Compulsory
Catalog
Description
Laboratuary Applications of Physics I course.
Course
Objectives
To provide a help to gain a creativeness and some abilities in this laboratuary
course in where applications of Physics I course are done.
Within this course, students learn the principles and applications of the
experiment first, then, they can learn how to evaluate the data that obtained
through the experiments. Associated theoretical issues are presented during this
course. Students take part individually in experiments in order to develop their
creativity and abilities in physics.
‘PHYSICS, For Scientists and Engineers with Modern Physics,
R.Serway,Saunders College Publishing,1990’.
Course Outcomes
Text Book
and/or
References
None
Assessment
Criteria
Quantity
Percentage
(%)
Midterm Exams
x
20
Quizzes
x
Laboratory Work
x
10
x
60
10
Other
Final Exam
Ders
Sorumluları±
Week
1234567891011121314-
Perihan Durmuş, Hakan Çiftçi, Mehmet Bahat.
Subjects
Giving some information about operation of an air table, drawing graphics and
preparing reports.
Vectors
Velocity and acceleration
Projectory motion and free falling.
Newton’s Laws-Motion in inclined plane.
Elastic-inelastic collision.
Perfectly inelastic collision
Simple Harmonic Motion
Angular Rotation
Course Title-Course Code: General Biology I- BIY112
Name of the Programme: Biology
Teaching Methods
Credits
Semester
Lecture
1
Language
Compulsory /
Elective
Prerequisites
Recite
Lab.
Other
56
Total
Credit
56
2
ECTS
Credit
2
Turkish
Compulsory
None
Course
Contents
General information about Biology, Creation of living thinks, Biological molecules, Cell
theory, Cell structure, Nucleic acids, Protein synthesis, Genetic engineering, Inheritance,
Cell Respiration, Photosynthesis, Animal tissues, Reproduction and Development biology,
Digestive systems in animals, Transport and circulation system in animals, Excretion
system in animals, Respiration system in animals, Hormon structure, Sense organs
Course
Objectives
Learning
Outcomes and
Competences
Textbook and
/or References
Teaching of general biology subjects
If the student will be succesful in this lesson, they will be well-prepared to lessons which
will they take next year
Keton WT., Gould JL. Biological Science. (Trans Ed. Demirsoy A., Türkan İ) 5. Edition,
1999, Palme Press, Ankara
Assessment
Criteria
If any,mark
as (X)
Midterm Exams
Percent
(%)
X
40
X
60
Quizzes
Homeworks
Laboratory Work
Other
Final Exam
Instructors
Assoc. Prof.Dr. Yusuf Kalender
Week
Subject
1
2
3
4
5
6
7
8
9
10
11
12
13
14
General information about Biology, Creation of living thinks,
Biological molecules
Cell theory, Cell structure
Nucleic acids, Protein synthesis
Cell Respiration, Photosynthesis
Genetic engineering, Inheritance,
Animal tissues
Reproduction and development biology
Digestive systems in animal
Transport and circulation system in Animals
Excretion system in Animals
Respiration system in Animals
Hormon structure
Sense organs